Results 231 to 240 of about 432,169 (385)

Sulfide‐Based Electrolytes for All‐Solid‐State Sodium Batteries

Advanced Energy Materials, EarlyView.
This review covers the structural features and synthesis strategies of sulfide‐based solid electrolytes, as well as critical challenges related to conductivity, interfacial and moisture stability, and scaling‐up for practical application in Sodium‐based All Solid‐State Batteries.
Han Yang, Luca Weckelmann, Baolin Wu, Chih‐Long Tsai, Luc Raijmakers, Rüdiger‐A. Eichel, Anna Windmüller   +6 more
wiley   +1 more source

Manipulating Interphase Chemistry by Endogenous Doping Toward High-Performance Hard Carbon Anodes for Sodium-Ion Batteries. [PDF]

Nanomicro Lett
Li H, Zhou Y, Yang Y, Chen Y, Zhang Y, Wang Z, Zong Q, Fang G, Zhou S, Pan A.   +9 more
europepmc   +1 more source

Upscaling Sodium‐Ion Battery Cells: From Aqueous Processing to Performance Assessment of Hard Carbon|Prussian White Pouch Cells

Advanced Energy Materials, EarlyView.
This study investigates the feasibility of scaling up Prussian White (PW)‐based cathode manufacturing at a pilot scale. Through careful PW dehydration combined with optimized aqueous processing, we report the stepwise development of industrially relevant 1 Ah pouch cells and evaluate their performance under various conditions.
Faduma M. Maddar, Katerina Gonos, Martand Singh, Jacob Compton, Daniel Atkinson, Matthew J. Capener, Mark Copley, Ivana Hasa   +7 more
wiley   +1 more source

Integrating dry-processing and pre-sodiation enables high-energy sodium ion batteries. [PDF]

Nat Commun
Qin N, Li Y, Yang H, Chen J, Feng C, Zhang C, Chen Z, Zheng JP, Jin L.   +8 more
europepmc   +1 more source

Alloys for Sodium-Ion Batteries [PDF]

, 2020
openaire   +1 more source

Prediction of Structural Stability of Layered Oxide Cathode Materials: Combination of Machine Learning and Ab Initio Thermodynamics

Advanced Energy Materials, EarlyView.
In this work, we developed a phase‐stability predictor by combining machine learning and ab initio thermodynamics approaches, and identified the key factors determining the favorable phase for a given composition. Specifically, a lower TM ionic potential, higher Na content, and higher mixing entropy favor the O3 phase.
Liang‐Ting Wu, Milica Zdravković, Dijana Milosavljević, Konstantin Köster, Olivier Guillon, Jyh‐Chiang Jiang, Payam Kaghazchi   +6 more
wiley   +1 more source

Study on sodium ion supplementation performance of CNT-coated sodium oxalate in sodium ion batteries. [PDF]

iScience
Tao S, Xuan Y, Li J, Lei K, Huang Z, He G, Shen K, Liu Z, Yin Z.   +8 more
europepmc   +1 more source

Breaking the Durability–Power Trade‐Off: Boron‐Directed Faceted O3 Cathodes for High‐Rate Sodium‐Ion Batteries

Advanced Energy Materials, EarlyView.
Boron‐oxide‐assisted particle engineering stabilizes O3‐type layered cathodes for sodium‐ion batteries by mitigating phase transitions and lattice strain. Acting as flux and structural modifier, boron forms submicron hexagonal platelets with (003) facets and expanded Na‐layer spacing, enabling rapid Na⁺ diffusion and mechanical resilience.
Tengfei Song, Alexis Manche, Dongrui Xie, Bowen Liu, Chenglong Wu, Bo Dong, Reda Malakauskaite, Manoj Ovhal, David O. Scanlon, Emma Kendrick   +9 more
wiley   +1 more source

Correction to "Online Mass Spectrometry Investigation of SEI Formation on Carbon Electrode Surfaces in Sodium-Ion Batteries: Oxygen and Additive Effects". [PDF]

ACS Appl Energy Mater
Zhang P, Nakahata S, Peng B, Li B, Zhang D, Inoue KI, Wang L, Honma I, Ye S.   +8 more
europepmc   +1 more source

Fe1-Xs/Feiiinx Heterostructure Encapsulated into S/N-Doped Carbon Nanofibers as an Efficient Anode Material for Sodium Ion Batteries

Jianghai Wu, Xin Liu, Yuchen Wang, Hua Yang, Pengwei Li, Qing Wang, Yahui zhang, Shao‐hua Luo   +7 more
openalex   +1 more source